%
% Tutorial -- The Work Book
%
% Copyright (C) 2005, 2006, 2007 Stefan Jahn <stefan@lkcc.org>
%
% Permission is granted to copy, distribute and/or modify this document
% under the terms of the GNU Free Documentation License, Version 1.1
% or any later version published by the Free Software Foundation.
%

\documentclass[headsepline,a4paper,twoside,12pt]{scrreprt}

% Include basic and title page definitions.
\include{basics}
\include{titlepage}

\tuttitle{
  Work Book}
\tutsubtitle{
  }
\tutauthor{
  Chris Pitcher\\
  Clemens Novak\\
  Gunther Kraut\\
  Mike Brinson\\
  Thierry Scordilis\\
  Stefan Jahn\vspace*{6pt}}
\tutcopyright{
  Copyright \copyright{} 2016 Gerald Oberschmidt
  \textless info@ibdrigo.com\textgreater\\
  Copyright \copyright{} 2014 Vadim Kuznetsov
  \textless ra3xdh@gmail.com\textgreater\\
  Copyright \copyright{} 2013 Clemens Novak
  \textless clemens@familie-novak.net\textgreater\\
  Copyright \copyright{} 2006, 2007, 2014 Mike Brinson
  \textless mbrin72043@yahoo.co.uk\textgreater\\
  Copyright \copyright{} 2006, 2009 Gunther Kraut
  \textless gn.kraut@online.de\textgreater\\
  Copyright \copyright{} 2005 Thierry Scordilis
  \textless thierry.scordilis@free.fr\textgreater\\
  Copyright \copyright{} 2005 Chris Pitcher
  \textless ozjp@chariot.net.au\textgreater\\
  Copyright \copyright{} 2005, 2006, 2007 Stefan Jahn
  \textless stefan@lkcc.org\textgreater}
\tutbooktrue

\tutstartup{Tutorial Collection}{%
  Chris Pitcher, Clemens Novak, Gunther Kraut, Mike Brinson, Thierry Scordilis, and Stefan Jahn}
\usepackage{keystroke}

% Here finally starts everything.
\tutbegin

\tableofcontents
\newpage

\chapter*{Introduction}
\input{intro}

\chapter{General Design Flow}
\input{general}

\chapter{Getting started with Qucs}
\graphicspath{{getstarted/pics/}}
\input{getstarted/content}

\chapter{Understanding RF Data Sheet Parameters}
\input{datasheet}

\chapter{DC Analysis, Parameter Sweep and Device Models}
\graphicspath{{dcstatic/pics/}}
\input{dcstatic/content}

\chapter{Getting Started with Digital Circuit Simulation}
\graphicspath{{digital/pics/}}
\input{digital/content}

\chapter{Transient Domain Flip-Flop Models for Mixed-Mode Simulation}
\graphicspath{{ffmodels/pics/}}
\input{ffmodels/content}

\chapter{Modelling Operational Amplifiers}
\graphicspath{{opamp/pics/}}
\input{opamp/content}

\chapter{Modelling the 555 Timer}
\graphicspath{{timer555/pics/}}
\input{timer555/content}

\chapter{Qucs Simulation of SPICE Netlists}
\graphicspath{{spicetoqucs/pics/}}
\input{spicetoqucs/content}

\chapter{Biasing a BJT Transistor}
\graphicspath{{bjtbias/pics/}}
\input{bjtbias/content}

\chapter{BJT Modeling and Verification}
\graphicspath{{modelbjt/pics/}}
\input{modelbjt/content}

\chapter{Power Amplifier Design}
\graphicspath{{poweramp/pics/}}
\input{poweramp/content}

\chapter{Low Noise Amplifier Design}
\graphicspath{{lna/pics/}}
\input{lna/content}

\chapter{Design of RF amplifiers using S-Parameters}
\graphicspath{{sparameteramp/pics/}}
\input{sparameteramp/content}

\chapter{Microstrip Design}
\graphicspath{{coupler/pics/}}
\input{coupler/content}

\chapter{Measurement Expressions Reference Manual}
\graphicspath{{functions/pics/}}
\input{functions/content}

\chapter{Component, compact device and circuit modelling using symbolic equations}
\graphicspath{{equations/pics/}}
\input{equations/content}

\chapter{Subcircuit and Verilog-A RF Circuit Simulation Models for Axial and Surface Mounted Resistors}
\graphicspath{{RFResModels/pics/}}
\input{RFResModels/content}

\chapter{Using Qucs in Textmode}
\graphicspath{{textmode/pics/}}
\input{textmode/content}

\chapter{Active Filters Design with Qucs and Qucsactivefilter}
\graphicspath{{activefilter/pics/}}
\input{activefilter/content}

\tutend
